Long Carbon Fiber Reinforced Thermoplastics
Long CF reinforced thermoplastics allow them to be more easily combined with other materials (such as thermoplastic resins) to form composite materials, thereby giving full play to their excellent mechanical properties and design flexibility. Advantages: 1. High Strength and Stiffness 2. Lightweight 3. Corrosion resistance and wear resistance 4. Excellent thermal conductivity 5. Design Flexibility
Application: 1. Aerospace 2. Automotive Industry 3. Sports Equipment 4. Energy Industry 5. Construction Industry
Product By Features
PEEK-LCF30 Composite – Aerospace-Grade He...
PEEK-LCF30 composite combines high-performance PEEK with long carbon fiber reinforcement to deliver aerospace-grade heat resistance, exceptional strength, and lightweight durability. Ideal for jet engine housings, structural mounts, and precision aerospace components, PEEK-LCF30 ensures reliable performance under extreme temperatures and mechanical stress.
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ABS-LCF Composite – Lightweight Drone Frames
ABS-LCF composite delivers the ideal balance of strength, light weight, and durability for high-performance drone frames. Perfect for racing and professional drones, ABS-LCF improves stability, impact resistance, and flight efficiency while allowing creative frame designs. Discover why ABS-LCF is the next step in lightweight drone technology.
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TPU-LCF50 Lightweight Belts for Smooth Conveying
Engineered for precision conveying, the TPU-LCF50 long carbon fiber reinforced belt delivers ultra-light weight, exceptional abrasion resistance and anti-static properties
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PA6 LCF High Strength Engineering Plastic Rods
PA6 LCF is a high performance thermoplastic reinforced with long carbon fibers, delivering superior stiffness, dimensional stability, and heat resistance (up to 180°C). Designed for automotive, aerospace and industrial applications, it offers optimal strength-to-weight ratio, chemical resistance and processability for structural components.
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PA6 LCF Carbon Fiber Nylon with High Strength
PA6-LCF is a reinforced nylon composite with carbon fiber enhancement, offering high tensile strength and improved stiffness while maintaining excellent dimensional stability. This material features low moisture absorption and good chemical resistance, making it suitable for demanding applications in automotive, industrial, and electrical components that require lightweight yet durable solutions.
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PA66-LCF10 for Sale – Solve Impact Failure in N...
Discover PA66-LCF10, a high-performance nylon 66 with 10% long carbon fiber for improved mechanical strength, impact resistance, and reduced warpage.
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PA66-LCF with Flame Retardancy
Flame Retardant PA66-LCF Composite combines PA66’s superior processability with long carbon fiber reinforcement, delivering UL94 V-0 flame resistance (LOI≥30%) while maintaining enhanced mechanical properties (220-320MPa tensile strength) and improved thermal stability (230°C HDT). With its optimized density (1.3-1.4g/cm³), this premium material provides an ideal balance of lightweight performance and structural…
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Tired of Weak Plastics? Buy PP-LCF10 for Instan...
PP-LCF 10 : A high-strength, lightweight material designed for automotive components, electronic enclosures, and sports equipment. Offers a cost-effective metal alternative with customizable solutions to enhance product performance.
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Strong PA12-LCF10 CF Nylon 3D Print
PA12-LCF10 is a high-performance carbon fiber reinforced nylon 12 composite, ideal for 3D printing and industrial applications. With 10% long carbon fibers, it delivers superior strength, rigidity, and dimensional stability while remaining lightweight.
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PA6-LCF10 Industrial Wear-Resistant
PA6-LCF10 is a high-performance long carbon fiber reinforced nylon material with exceptional strength, lightweight properties, high temperature resistance, and superior wear resistance, making it an ideal choice for automotive, aerospace, electronics, and industrial components.
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PP-LCF10 Drone Structural Material
PP-LCF 10 : A high-strength, lightweight material designed for automotive components, electronic enclosures, and sports equipment. Offers a cost-effective metal alternative with customizable solutions to enhance product performance.
Learn MoreProduct Feature Box
WEAR RESISTANCE
CONDUCTIVE MATERIALS
HIGH STRENGTH
ANTI STATIC
SCRATCH RESISTANCE
ABRASION RESISTANCE
ECO FRIENDLY
LIGHT WEIGHT
Main characteristics
1. Outstanding mechanical strength – They possess high tensile and compressive strengths.
2. Excellent stiffness – Ensuring rigidity in various applications.
3. Good fatigue resistance – Can withstand repeated loading without significant degradation.
4. Superior impact toughness – Absorb and disperse impact energy effectively.
5. Low density – Leading to lightweight products.
6. High heat resistance – Maintain performance at elevated temperatures.
7. Excellent chemical resistance – Resist the effects of various chemicals.
8. Good electrical conductivity – Suitable for certain electrical applications.
9. Rapid molding process – Shorten production cycles.
10. Recyclability – Contribute to environmental protection and cost savings.
11. Design flexibility – Enable complex shapes and structures.
12. Long-term dimensional stability – Retain shape and size over time.
Company Advantage
Customization Production Capacity
Carbon (Xiamen) New Material Co., Ltd. is flexible and can meet unique customer demands. For aerospace, it uses advanced design and simulation for complex, high-performance parts. For the automotive industry, it combines strength with aesthetic and surface treatment.
Efficient Supply Chain Management
Carbon (Xiamen) New Material has a mature supply chain that ensures raw material supply and on-time product delivery. Close ties with global suppliers guarantee quality. Cooperation with logistics experts ensures fast transportation. Real-time tracking predicts and resolves issues.
Professional R & D Team
Carbon (Xiamen) New Material Co., Ltd. has a team of experienced material scientists, engineers, and technical experts. They innovate and improve products. Material scientists enhance interfaces, engineers optimize designs, and experts use tech for monitoring and efficiency.
Excellent After-sales Service
Carbon (Xiamen) New Material offers all-round, prompt, and professional after-sales support. A dedicated team responds within 24 hours. They solve problems remotely or on-site and provide installation and maintenance training. Feedback is used to improve service.
Frequently Asked Questions
Carbon (Xiamen) New Material Co., Ltd. aims to provide buyers with "one-stop" worry-free high-quality services. Here you can find all information about carbon fiber engineering plastics. If you still have questions, please send us an email for consultation!
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What Are Long CF Thermoplastic Composites?
Long CF Thermoplastic Composites are a type of advanced material having long carbon fibers in a thermoplastic matrix, offering high strength and other excellent properties.
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What are the main advantages of Long CF Thermoplastic Composites?
They provide high strength, stiffness, lightweight, good heat resistance, and excellent fatigue resistance.
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How are Long CF Thermoplastic Composites different from short CF ones?
Long fibers offer better mechanical properties and load-bearing capacity.
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In which industries are they commonly used?
Aerospace, automotive, electronics, and sports equipment industries.
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Can long carbon fiber reinforced thermoplastics be recycled?
Yes, but the process depends on the specific thermoplastic used.
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How difficult is it to process these composites?
Processing can be challenging and requires specialized equipment.
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What is the impact of fiber orientation on the properties?
Fiber orientation significantly affects strength and stiffness in specific directions.
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Are they more expensive than traditional materials?
Typically, but the performance justifies the cost in many high-performance applications.
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How do environmental factors affect their performance?
Moisture and UV radiation have limited effects, but extreme conditions may cause some changes.
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Can they be combined with other materials?
Yes, they can be combined with metals or other polymers for specific properties.
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What are the future trends in the development of these composites?
Continued improvement in properties, easier processing, and wider application areas.
